Abstract
When a railway pantograph interacts with a catenary during the movement of a rail vehicle, several physical phenomena, both mechanical and electrical, occur in the system. These phenomena affect the quality of power supply of a train from traction devices. The unfavourable arcing occurring when there are disturbances of contact between the pantograph’s slider and the catenary contact wire. In turn, it results in energy loss and increased wear of the components of the system. When designing new solutions, computational models are helpful to predict the quality of interaction between the components of the pantograph-contact line system already at the virtual prototyping stage. In this paper, the authors comprehensively present a multi-domain (multiphysics) model, which takes into account necessary conditions for interaction between pantograph elements and a catenary. Finally, the impact of the individual physical domains are analysed and the ones which have a significant impact on the simulation of the operation results are identified.
Highlights
The pantograph mechanism is used for receiving electrical power from a catenary
The analysis of statistical parameters describing variations in the course of the contact force (CF) was limited to two central spans and was filtered as described in Section 3.2 (Figure 13B)
The 160ECT pantograph is certified to a maximum speed of 160 km/h, but for testing purposes, numerical simulations were performed in an extended speed range of 120–200 km/h
Summary
The pantograph mechanism is used for receiving electrical power from a catenary. It is used in trams, freight locomotives, and highspeed passenger trains. The electrical power is transferred through the pantograph structural elements (arms, links and frame), and to the electrical system of the rail vehicle. Increases in trains speeds are observed for years and require improvements to the various components of the whole system, covering both vehicles and the entire infrastructure. Due to the proportional relationship between the train speed and the current consumed from the traction system, the mechanisms for collecting power from the catenary is one of the factors limiting the maximum speed of trains.
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